Firmware password management

ABSTRACT

Disclosed are various examples for managing firmware passwords, such as BIOS passwords. A password reset command can be generated and transmitted to a client device. A management agent can execute the command and provide confirmation to a management service that the password has been updated.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of and claims the benefit of U.S.patent application Ser. No. 16/910,539, entitled “FIRMWARE PASSWORDMANAGEMENT,” and filed Jun. 24, 2020, which is hereby incorporated byreference in its entirety.

BACKGROUND

Administrators of corporate networks and other enterprise infrastructureare expected to enforce policy compliance for any device that anemployee can use for work. Administrators at some enterprises require anemployee to enroll with a management service capable of protectingenterprise data. The management service can deploy programmatic agentsthat can configure device settings at an application, operating system,or a networking level. However, these programmatic agents may berestricted from configuring settings for the firmware of the manageddevices.

System Integrators and Original Equipment Manufacturers (OEMs) offertools that allow administrators to access firmware settings of a device.For example, depending on the firmware, administrators can createscripts that use the tools to access firmware settings of individualdevices and read or specify values for individual firmware settings.Unfortunately, remotely configuring a device, or a multitude of deviceswith varying firmwares, can be problematic even when using these tools.As a result, enterprises customers may fail to properly secure orpassword protect device firmware, such as a basic input/output system(BIOS) firmware for enterprise personal computers.

BRIEF DESCRIPTION OF THE DRAWINGS

Many aspects of the present disclosure can be better understood withreference to the following drawings. The components in the drawings arenot necessarily to scale, with emphasis instead being placed uponclearly illustrating the principles of the disclosure. Moreover, in thedrawings, like reference numerals designate corresponding partsthroughout the several views.

FIG. 1 is a drawing of a networked environment including a managementservice that communicates with managed devices.

FIG. 2 is a drawing of a user interface of an administrator console formanaging BIOS.

FIG. 3 is a flowchart illustrating functionality implemented bycomponents of the networked environment of FIG. 1 .

FIG. 4 is a flowchart illustrating functionality implemented bycomponent of the networked environment of FIG. 1 .

FIG. 5 is a flowchart illustrating functionality implemented bycomponent of the networked environment of FIG. 1 .

DETAILED DESCRIPTION

The present disclosure relates to managing firmware for client devicesenrolled with an enterprise mobility management (EMM) system. The EMMsystem can maintain a record for each client device managed by the EMM,which includes a profile for that specifies preferred or mandatoryvalues for various firmware settings. The EMM system can enforce variouspolicies for the firmware of an enrolled client device, such asrequiring a minimum firmware version to be installed or requiringvarious settings of the firmware to be configured in a particularmanner.

Some EMM systems provide firmware management capabilities that providefor setting firmware properties. However, certain firmware managementcapabilities only provide a basic input-output system (BIOS) profilethat allows for the setting of a single password or require a user tomanually select or input a password. In other words, tools that providefor the remote management of BIOS passwords in devices that are managedby an EMM system can be rudimentary and open a security attack vector inthe form of a weak BIOS password. Accordingly, examples of thisdisclosure can provide for a managed BIOS password that is managed bythe EMM system. In a managed BIOS password framework, passwords can beautomatically managed by the EMM system on behalf of the administratorand on behalf of the managed device. Additionally, examples of thedisclosure can implement a password rotation scheme that generates andupdates BIOS passwords on managed device.

In one scenario, if a new version of a device profile is generated or adevice profile is updated, a new BIOS password can be published tomanaged devices. In another scenario, if the EMM system detects thatsomething has changed within the BIOS settings of a managed device, theEMM system can automatically change or update the BIOS password of themanaged device because it is assume that the existing BIOS password wasused in order to access the device. Lastly, if a known attack orvulnerability has been detected, the EMM system can deploy an updatedBIOS password to multiple managed devices in bulk fashion.

With reference to FIG. 1 , shown is an example of a networkedenvironment 100. The networked environment 100 can include a computingenvironment 103 and one or more client devices 106 (also called clientdevice 106) in communication with one other over a network 109. Thenetwork 109 can include wide area networks (WANs) and local areanetworks (LANs). These networks can include wired or wireless componentsor a combination thereof. Wired networks can include Ethernet networks,cable networks, fiber optic networks, and telephone networks such asdial-up, digital subscriber line (DSL), and integrated services digitalnetwork (ISDN) networks. Wireless networks can include cellularnetworks, satellite networks, Institute of Electrical and ElectronicEngineers (IEEE) 802.11 wireless networks (i.e., WI-FI®), BLUETOOTH®networks, microwave transmission networks, as well as other networksrelying on radio broadcasts. The network 109 can also include acombination of two or more networks 109. Examples of networks 109 caninclude the Internet, intranets, extranets, virtual private networks(VPNs), and similar networks.

The computing environment 103 can include, for example, a servercomputer or any other system providing computing capability.Alternatively, the computing environment 103 can include a plurality ofcomputing devices that are arranged, for example, in one or more serverbanks, computer banks, or other arrangements. The computing environments103 can include a grid computing resource or any other distributedcomputing arrangement. The computing devices can be located in a singleinstallation or can be distributed among many different geographicallocations.

The computing environments 103 can also include or be operated as one ormore virtualized computer instances. For purposes of convenience, thecomputing environment 103 is referred to herein in the singular. Eventhough the computing environment 103 is referred to in the singular, itis understood that a plurality of computing environments 103 can beemployed in the various arrangements as described above. As thecomputing environment 103 communicates with the client device 106remotely over the network 109, the computing environment 103 can bedescribed as a remote computing environment 103.

Various applications can be executed in the computing environment 103.For example, a management service 111 and a management console 113, aswell as other applications, may be executed in the computingenvironment. Also, various data is stored in a data store 115 that isaccessible to the computing environment 103. The data store 115 may berepresentative of a plurality of data stores 115, which can includerelational databases, non-relational databases, object-orienteddatabases, hierarchical databases, hash tables or similar key-value datastores, as well as other data storage applications or data structures.The data stored in the data store 115 is associated with the operationof the various applications or functional entities described below. Thisdata can include one or more device records 118, a command queue 123, aswell as potentially other data.

The management service 111 can be executed to oversee the operation ofclient devices 106 enrolled with the management service 111. In someexamples, an enterprise, such as a company, organization, or otherentity, can operate the management service 111 to oversee or manage theoperation of the client devices 106 of its employees, contractors,customers, or other users having accounts with the enterprise. Themanagement service 111 can further cause device records 118 to becreated, modified, or removed from the data store 115. This can includeadding a firmware profile 126 to a device record 118 or editing afirmware profile 126 previously applied to a device record 118.Management commands issued by the management service 111 for clientdevices 106, such as to apply settings specified in a firmware profile126, can be stored in the command queue 123 by the management service111. As discussed later, the client device 106 can access the commandqueue 123 and retrieve and execute any commands stored in the commandqueue 123 for the client device 106.

The management console 113 provides an interface for client devices 106to interact with and control the operation of the management service111. For example, the management console 113 can include a web serverthat generates one or more web pages that can be displayed on the clientdevice 106. An administrative user can interact with the web pagesserved by the management console 113 to add, remove, or modify devicerecords 118. For instance, the administrative user could use themanagement console 113 to update or reset a BIOS password for a clientdevice 106 that is enrolled as a managed device. In addition, themanagement console 113 can also provide a public application programminginterface (API) that is accessible across the network 109. Standaloneapplications installed on a client device 106 can call or otherwiseinvoke one or more functions provided by the API to programmaticallycontrol the operation of the management service 111, including adding,removing, or modifying device records 118.

A device record 118 can represent data related to a client device 106enrolled with or otherwise managed by the management service 111.Various types of information or data can be stored in a device record118, such as the owner or user of a client device 106, policiesapplicable to a client device 106, configuration settings for the clientdevice 106, the type of client device 106 (e.g., laptop, desktop,smartphone, or tablet), the manufacturer of the client device 106, themodel of the client device 106, a list of applications installed on theclient device 106 and the respective version, as well as other data. Forexample, the device record 118 could include a firmware profile 126 forthe firmware password for firmware, such as a BIOS, that is installed onthe client device 106.

A firmware profile 126 can represent one aspect of the properties thatare stored in a device record 118. The present disclosure is directed topassword management of firmware passwords, such as a BIOS password of aclient device 106. The firmware profile 126 can store an appliedpassword 129 and a submitted password 133 that correspond to aparticular client device 106. In some implementations, a pendingpassword can also be stored in a firmware profile 126. The appliedpassword 129 can represent a BIOS password for a managed client device106 that has been confirmed to have been applied to the firmware 139installed on the client device 106. A management agent 146 running onthe client device 106 can provide the confirmation that a password hasbeen applied to the firmware 139. A submitted password 133 represents apassword that has been generated by the management service 111 or a userand submitted to the client device 106 to apply to the firmware 139, butconfirmation that the password has been applied has not yet beenreceived by the client device 106.

A device record 118 can also store other aspects that correspond tofirmware 139 installed on a client device 106. For example, the devicerecord 118 can store values for various firmware properties, such as thecurrent version of the firmware 139 installed or the version of thefirmware 139 that is to be installed. Likewise, the device record 118could specify values that are to be set for other firmware attributes orvalues that are currently set for firmware attributes. A firmwareattribute or property can represent data regarding the firmware 139installed on a client device 106.

The management service 111 various aspects of a client device 106, suchas various attributes of the firmware 139. For example, a firmware 139can provide settings that allow a user to enable or disable hardwarefeatures provided by the client device 106 (e.g., symmetricmultithreading (SMT), a trusted platform module (TPM) installed on theclient device 106, processor instruction sets (e.g., virtualizationinstructions), wake-on-lan (WOL) functionality, power consumptionfeatures, or similar hardware features), otherwise configure theoperation of the client device 106 (e.g., specifying a boot deviceorder, configuring a clock speed of the processor or memory of theclient device, configuring memory timings for the client device 106, orsimilar settings). Each setting may be represented in a user interfaceprovided by the management console 113 for management by anadministrator. Each can have a corresponding value that specifieswhether the feature is enabled, disabled, or specifies an operationalparameter for the feature.

A command queue 123 can represent a set of pending commands orinstructions issued by the management service 111 to one or more clientdevices 106. In some implementations, a command queue 123 may be createdfor each client device 106 enrolled or registered with the managementservice 111. Commands relating to a firmware profile 126 or otherfirmware settings for a client device can be stored in the command queue123. At periodic intervals, the client device 106 can retrieveinstructions from the respective command queue 123 for the client device106. In other implementations, a single command queue 123 may be usedfor all client devices 106. In these implementations, a command orinstruction stored in the command queue 123 can be tagged with a uniqueidentifier for a client device 106. The client device 106 can retrieveany commands or instructions from the command queue tagged with therespective unique identifier for the client device 106. Commands in thecommand queue 123 can include a password reset 151 that includes anapplied password 129 that is currently applied to a client device 106and a new password to which the existing password should be changed inthe firmware 139.

The client device 106 is representative of one or more client devicesthat may be connected to the network 109. Examples of client devices 106include processor-based systems, such as desktop computers, a laptopcomputers, a personal digital assistant, a cellular telephone, asmartphone, a tablet computer system, smart speakers or similar headlessdevices, or any other device with like capability. The client device 106can also be equipped with networking capability or networkinginterfaces, including a localized networking or communicationcapability, such as a near-field communication (NFC) capability,radio-frequency identification (RFID) read or write capability, or otherlocalized communication capability.

The client device 106 can include firmware 139 that can providelow-level control of the operation of the hardware of the client device106. In some instances, firmware 139 can provide a standardizedoperating environment for more complex software executing on the clientdevice 106. For example, the PC-compatible Basic Input/Output System(PC-BIOS) used by many desktops, laptops, and servers initializes andtest system hardware components, enables or disables hardware functionsas specified in the PC-BIOS configuration, and the loads a boot-loaderfrom memory to initialize an operating system of the client device 106.The PC-BIOS also provides a hardware abstraction layer (HAL) forkeyboard, display, and other input/output devices which may be used bythe operating system of the client device 106. The Unified ExtensibleFirmware Interface (UEFI) provides similar functions as the BIOS, aswell as various additional functions such as Secure Boot, a shellenvironment for interacting with the client device 106, network 109connectivity for the client device 106, and various other functions.Other client devices 106 may use other implementations of firmware 139(e.g., OpenFirmware/OpenBoot, Coreboot, Libreboot, and similarimplementations)

The firmware 139 can be protected with a password 141. The firmware 139can require the password 141 to make changes to the various settings andattributes within the firmware 139. In some examples, the firmware 139can also be associated with a TPM chip that can provide additionalsecurity and protection to the firmware 139. In one example, whenever asetting or attribute in the firmware 139 has been changed, a hash orother value maintained by the TPM chip also changes, enabling detectionof any change or update to the firmware 139 on the client device 106.Additionally, to perform updates to the password 141, the firmware 139can require that the existing password be provided before changing thepassword 141 to a new value.

A client device 106 can include an operating system configured toexecute various client applications. Examples of operating systemsinclude MICROSOFT WINDOWS®, APPLE macOS®, APPLE iOS®, GOOGLE ANDROID®,and various distributions of Linux. The client applications can includeweb browsers, enterprise applications, social networking applications,word processors, spreadsheet applications, and media viewingapplications. The client device 106 can also execute the managementagent 146.

The management agent 146 can maintain communication with the managementservice 111 to perform various actions on the client device 106 inresponse to instructions received from the management service 111. Insome instances, the management agent 146 includes a separate applicationexecuting on the client device 106. In other instances, the managementagent 146 includes a mobile device management (MDM) framework providedby or included in the operating system 143 installed on the clientdevice 106. The management agent 146 can contact the management service111 at periodic intervals and request that the management service 111send any commands or instructions stored in the command queue 123 to themanagement agent 146. The management agent 146 can then cause the clientdevice 106 to perform the commands provided by the management service111 or cause the client device 106 to modify the firmware 139 installedon the client device 106 to match the values of one or more firmwareattributes specified by the device record 118 received from themanagement service 111. Again, one example of a firmware attribute thatcan be modified by the management service 111 is a password 141associated with the firmware 139.

In some implementations, a firmware agent can be executed by the clientdevice 106 to expose configuration settings and values of the firmware139 to a user or other applications. In some embodiments, the firmwareagent can expose an application programing interface (API) that can beused by other applications, such as the management agent 146, tointeract with the firmware 139. For example, the API exposed by thefirmware agent can allow the management agent 146 to update theinstalled version of the firmware 139, modify a configuration settingfor the firmware 139, update the firmware password 141, or perform otherfirmware management tasks. Because firmware 139 is often customized foreach make and model of a client device 106 due to various hardwaredifferences between vendors or models, the firmware agent is oftenprovided by the manufacturer of the client device 106. For example,DELL, HP, LENOVO, and other manufacturers may provide their own firmwareagent for client devices 106 that they manufacture.

The management agent 146 can be installed with administrator or elevatedprivileges on the client device 106 so that it possesses sufficientpermissions to edit parameters in the password 141 of a client device106. The management agent 146 can also have access to certain APIs orlibraries within the operating system or OEM APIs or libraries thatpermit the management agent 146 to edit firmware properties such as thepassword 141 or other settings in the firmware 139.

Next, a general description of the operation of the various componentsof the networked environment 100 is provided. To begin, a user cancreate and/or configure a device record 118 for one or more clientdevices 106 through a user interface provided by the management console113. In some examples, a device record 118 can be automatically createdfor a client device 106 when the device is enrolled with the managementservice 111 as a managed device. For example, the user could specifyvalues for individual firmware attributes. For instance, the user couldspecify that specific hardware features be enabled, such as symmetricmultithreading, virtualization instructions, or other features. The usercould also specify a password 141 for the client device 106. However, inlarge scale deployments, oftentimes, the device records 118 are createdbased upon a template and as a result, either no password 141 isspecified for the firmware 139 or the same password is specified forclient devices 106 that are based on the template.

Accordingly, examples of the disclosure can facilitate passwordmanagement capabilities for firmware passwords 141 for devices that areenrolled as managed devices with the management service 111. Once adevice record 118 has been created, a password can be generated by themanagement service 111 and saved to the firmware profile 126 as asubmitted password 133. The management service 111 can place a commandinto the command queue 123 for a client device 106 to update thepassword 141 of the firmware 139. The command can include the firmwareattributes as well as a current password 141 of the firmware 139, if anyhas been set. In some instances, the current password 141 of thefirmware 139 can include a default password. In other instances, thecurrent password 141 of the firmware 139 can be provided by themanagement agent 146 to the management service 111 upon enrollment withthe management service 111 as a managed device and stored in the datastore 115.

The management service 111 can reset or update the password 141 of thefirmware 139 in various scenarios. In a first scenario, the password 141can be updated at the behest of a user on the management console 113. Anadministrative user can manually update the password 141 of the firmware139 for a client device 106 or request that the management service 111generate a random password 141 for the firmware 139. In some scenarios,the management console 113 can allow a user to request that themanagement service 111 generate a random password for a plurality ofclient devices 106 at once. The plurality of client devices 106 can bechosen by selecting a grouping of client devices 106 in the managementconsole 113 by an attribute by which the devices can be grouped.

In another scenario, the management service 111 can request a password141 to be updated or reset in response to a setting within the firmware139 being changed on the client device 106. If a firmware 139 settingchange is detected, it can be assumed that the existing password 141 forthe firmware 139 was accessed or used by the client device 106. In manycases, in order to change a firmware 139 setting, the password 141 isrequired. Accordingly, any time a firmware 139 setting is changed,because the password 141 would have been used to make the change, thepassword 141 can be updated to a new password 141. The new password 141can be randomly generated or generated according to a passwordgeneration algorithm.

The management agent 146 can detect the change in a firmware 139 settingby detecting the change in a hash code or other value set by a TPMmodule that reflects the state of the firmware 139. In many platforms, aTPM module or other subsystem of the client device 106 can maintain ahash code or version number associated with the state of the firmware139. When any value or setting in the firmware 139 is changed orupdated, the hash code or version number can also change. Accordingly,the management agent 146 can detect such a change by communicating withthe TPM or other module of the client device 106 that reflects the stateof the BIOS. The management agent 146 can then notify the managementservice 111 of the change, which can cause the management service 111 togenerate a request to update the password 141 of the firmware 139.

To change the password 141, the management service 111 can submit apassword reset 151 command to the management agent 146. The passwordreset 151 can the applied password 129 of the client device 106, whichis also the existing password 141 of the firmware 139, and a newpassword, or a pending password to which the password 141 is beingchanged. The management agent 146 can obtain the password reset 151command from the command queue 123 can perform the password change. Themanagement agent 146 can transmit a reset confirmation 153 to themanagement service 111 in response to performing the password reset 151command and updating the password 141 in the firmware 139. In responseto receiving the reset confirmation 153, the management service 111 canoverwrite the firmware properties in the device record 118 correspondingto the client device 106.

Referring now to FIG. 2 , shown is an example of a user interface 200generated by the management console 113, such as a web page, wheresettings of firmware attributes can be specified. For instance, thefirmware profile 126 shown indicates that a TPM chip should be enabledin the firmware 139 of the client device 106 by emphasizing a userinterface element 203 showing Enabled. A different client device 106having a TPM chip or other similar hardware configuration can also beassociated with the firmware profile 126. The management console 113 cangenerate a user interface showing for example that the different clientdevice 106 has a TPM chip that is not enabled (not shown). In that case,a user interface element showing Disabled would be emphasized. Asdepicted, the user interface 200 can allow an administrator to managesettings of firmware attributes that make up a firmware profile 126.Firmware attributes can be grouped together. For example, the userinterface 200 shows groups of Security settings, Boot settings,Virtualization settings, Connectivity settings, Storage settings, andPower Management settings. Some examples of security settings that canbe defined by an administrator and stored in a firmware profile 126include firmware password and TPM chip.

A firmware password can be a series of letters, numbers, and specialcharacters. The user interface 200 provides a change password button 206that allows an administrator to change a firmware password for a clientdevice 106 or a group of client devices 106. In some implementations,the updated password for the firmware 139 can be user specified orrandomly generated according to a password generation algorithm.

Boot settings that can be defined by an administrator and stored in adevice record 118. Boot settings include a user interface element thatcan specify a boot mode of firmware 139. The boot mode can be set toprotected by clicking a check box. There is a Secure Boot option thatallows an administrator to enable or disable a secure boot. Finally, alegacy option ROMs option can be set to enabled or disabled. Variousother BIOS options or firmware options can be selected and configuredutilizing the management console 113.

As depicted, various settings can be defined by an administrator andstored in a device record 118. Virtualization settings can include CPUvirtualization, Virtualization 10, and Trusted Execution. Connectivitysettings can include Wireless LAN Enable/Disable, Cellular RadioEnable/Disable, Bluetooth Enable/Disable, and GPS Enable/Disable.Storage settings can include Self-Monitoring, Analysis, and ReportingTechnology (SMART) Reporting Enable/Disable.

The user interface 200 can allow the administrator to save a firmwareprofile 126. In some examples, clicking a save and publish element 215on the user interface 200 allows the management service 111 to proceedto publish a firmware profile 126 to a client device 106 as a firmwareprofile 126, as depicted in FIG. 1 . If the user has updated thepassword reset 151 of the firmware 139, the management service 111 cangenerate a password reset 151 command that is provided to the managementagent 146, which can execute the password reset 151 to update thepassword 141 in the firmware 139.

In some examples, the user interface 200 can allow a user to direct themanagement service 111 to update a password in a grouping of clientdevices 106 that are managed by the management service 111. The groupingof client devices 106 can be created by utilizing filters or toolswithin the management console 113 to categorize client devices 106 byvarious attributes. In one example, the management service 111 canidentify client devices 106 that have a particular version of thefirmware 139. The management console 113 can allow the user to directthe management service 111 to cause a password reset 151 for each of theclient devices 106 in the grouping so that each device is assigned arandomly generated password.

Moving on to FIG. 3 , shown is a flowchart that provides one example ofthe operation of a portion of the management service 111. The flowchartof FIG. 3 can be viewed as depicting an example of elements of a methodimplemented by the management service 111 executing in the computingenvironment 103 according to one or more examples. The separation orsegmentation of functionality as discussed herein is presented forillustrative purposes only. FIG. 3 illustrates how the managementservice 111 can update a password 141 in firmware 139 of a client device106 that is enrolled as a managed device.

Beginning with step 303, the management service 111 can obtain a requestto update a password 141 of firmware 139 on a client device 106 that isenrolled as a managed device with the management service 111. Therequest can be obtained from the management console 113 and originatingfrom a user that has requested that the password 141 be updated with auser interface provided by the management console 113. The request canbe associated with a single client device 106. In some cases, therequest can be associated with a request to update the password 141 onmultiple client devices 106 that are enrolled as managed devices. Inthis scenario, the steps shown in FIG. 3 can be performed in bulkfashion for multiple client device 106.

Next, at step 305, the management service 111 can generate a newpassword 141 for the firmware 139. The newly generated password 141 canbe a random password or generated using a password algorithm that takesinto account password complexity rules that specify a minimum passwordcomplexity. The newly generated password 141 can also take into accountpassword repetition rules that require the password 141 to besufficiently different from a previously utilized password for thefirmware 139.

At step 307, the management service 111 can obtain applied password 129corresponding to the client device 106. The applied password 129 can bethe password 141 that has been confirmed by the management agent 146 ashaving been applied to the firmware 139. The applied password 129 can berequired by the firmware 139 to change the password 141 that isassociated with the firmware 139.

At step 309, the management service 111 can generate a password reset151 command that can be placed in a command queue 123. The passwordreset 151 can include the applied password 129 and the newly generatedpassword. In some embodiments, the newly generated password can be savedin memory or saved to the data store 115 as a pending password before itis submitted to the management agent 146. The password reset 151 caninclude a command or instruction that instructs the management agent 146to change the password 141 of the firmware 139 to the newly generated orpending password.

At step 311, the management service 111 can transmit the password reset151 to the client device 106. The password reset 151 can be placed intoa command queue 123 that corresponds to the client device 106. Themanagement agent 146 can be configured to periodically check in orretrieve commands from the command queue 123 that are intended for theclient device 106 on which the management agent 146 is executing.

Next, at step 313, the management service 111, once the management agent146 executing on the client device 106 has retrieved the password reset151 from the command queue 123, can save the newly generated password asthe submitted password 133 corresponding to the client device 106.

At step 315, the management service 111 can determine whether the resetconfirmation 153 has been received from the management agent 146. Thereset confirmation 153 can confirm that the password reset 151 has beenexecuted by the management agent 146 and that the password has beenupdated in the firmware 139. The management service 111 can wait for thereset confirmation 153 and identify that a firmware profile 126 has beencreated that pertains to a client device 106. The management service 111need not synchronously wait for the reset confirmation 153. Themanagement service 111 can also obtain the reset confirmation 153asynchronously while performing other management tasks or communicatingwith other client devices 106. If no reset confirmation 153 is received,the process can proceed to completion.

If the reset confirmation 153 is received, the process can proceed tostep 317. At step 317, the management service 111 can overwrite theapplied password 129 with the submitted password 133. The resetconfirmation 153 can confirm that the management agent 146 hassuccessfully updated the password 141 on the firmware 139. Thereafter,the process can proceed to completion.

Moving on to FIG. 4 , shown is a flowchart that provides one example ofthe operation of a portion of the management service 111. The flowchartof FIG. 4 can be viewed as depicting an example of elements of a methodimplemented by the management service 111 executing in the computingenvironment 103 according to one or more examples. The separation orsegmentation of functionality as discussed herein is presented forillustrative purposes only. FIG. 4 illustrates how the managementservice 111 can update a password 141 in firmware 139 of a client device106 that is enrolled as a managed device in response to a firmwaresetting being updated in the client device 106.

Beginning with step 403, the management service 111 can obtain anindication that a setting or attribute in the firmware 139 of a clientdevice 106 that is enrolled as a managed device has been changed. Theindication can be received from the management agent 146. The indicationcan be obtained by the management agent 146 on the client device 106from a TPM chip or other module that provides a hash, version, or otherindication that a firmware 139 has been changed on the client device106. If a setting or attribute has been changed or updated, anassumption can be made that the password 141 has been utilized becausein many cases, the password 141 is required to make any changes tofirmware 139 settings, such as any change to a BIOS attribute, setting,or property on a client device 106. To this end, the management agent146 can poll the TPM chip or other module within the client device 106that reflects the state of the firmware settings of the firmware 139.Upon detecting that a setting has been changed, the management agent 146can inform the management service 111 that a setting in the firmware 139has been changed. The communication from the management agent 146 that aBIOS setting has changed can operate as a request to update the password141 of the firmware 139. In embodiments of this disclosure, any time apassword is utilized to update a firmware 139 setting, the password 141can be considered compromised, and so the password 141 can be changed.In this case, the request to change the password 141 can be associatedwith a single client device 106 from which the indication is received.

In some embodiments, the indication can also comprise an indication thatthe firmware 139 or BIOS on the client device 106 has been updated to adifferent version. In some examples, upon obtaining an indication thatthe firmware 139 has been updated, the management service 111 can beinstrumented to perform a password reset for those client devices 106.

Next, at step 406, the management service 111 can generate a newpassword 141 for the firmware 139. The newly generated password 141 canbe a random password or generated using a password algorithm that takesinto account password complexity rules that specify a minimum passwordcomplexity. The newly generated password 141 can also take into accountpassword repetition rules that require the password 141 to besufficiently different from a previously utilized password for thefirmware 139.

At step 409, the management service 111 can obtain applied password 129corresponding to the client device 106. The applied password 129 can bethe password 141 that has been confirmed by the management agent 146 ashaving been applied to the firmware 139. The applied password 129 can berequired by the firmware 139 to change the password 141 that isassociated with the firmware 139.

At step 412, the management service 111 can generate a password reset151 command that can be placed in a command queue 123. The passwordreset 151 can include the applied password 129 and the newly generatedpassword. In some embodiments, the newly generated password can be savedin memory or saved to the data store 115 as a pending password before itis submitted to the management agent 146. The password reset 151 caninclude a command or instruction that instructs the management agent 146to change the password 141 of the firmware 139 to the newly generated orpending password.

At step 415, the management service 111 can transmit the password reset151 to the client device 106. The password reset 151 can be placed intoa command queue 123 that corresponds to the client device 106. Themanagement agent 146 can be configured to periodically check in orretrieve commands from the command queue 123 that are intended for theclient device 106 on which the management agent 146 is executing.

Next, at step 418, the management service 111, once the management agent146 executing on the client device 106 has retrieved the password reset151 from the command queue 123, can save the newly generated password asthe submitted password 133 corresponding to the client device 106.

At step 421, the management service 111 can determine whether the resetconfirmation 153 has been received from the management agent 146. Thereset confirmation 153 can confirm that the password reset 151 has beenexecuted by the management agent 146 and that the password has beenupdated in the firmware 139. The management service 111 can wait for thereset confirmation 153 and identify that a firmware profile 126 has beencreated that pertains to a client device 106. The management service 111need not synchronously wait for the reset confirmation 153. Themanagement service 111 can also obtain the reset confirmation 153asynchronously while performing other management tasks or communicatingwith other client devices 106. If no reset confirmation 153 is received,the process can proceed to completion.

If the reset confirmation 153 is received, the process can proceed tostep 424. At step 317, the management service 111 can overwrite theapplied password 129 with the submitted password 133. The resetconfirmation 153 can confirm that the management agent 146 hassuccessfully updated the password 141 on the firmware 139. Thereafter,the process can proceed to completion.

Moving on to FIG. 5 , shown is a flowchart that provides one example ofthe operation of a portion of the management agent 146. The flowchart ofFIG. 5 can be viewed as depicting an example of elements of a methodimplemented by the management agent 146 according to one or moreexamples. The separation or segmentation of functionality as discussedherein is presented for illustrative purposes only. FIG. 5 illustrateshow the management agent 146 running on a client device 106 that is amanaged device can update a password 141 in the firmware 139, such as inthe BIOS of the client device 106.

First, at step 503, the management agent 146 can receive a passwordreset 151 command. The password reset 151 command can include thecurrent password, or the applied password 129 of the password 141. Thepassword reset 151 can also include the newly created password, whetherthe newly created password is generated by the management service 111 orspecified by a user.

At step 505, the management agent 146 can update the password 141 in thefirmware 139. The management agent 146 can utilize an API or libraryprovided by an OEM firmware installed on the client device 106. Thefirmware 139 can provide a command that allows an application withsufficient privileges or with the correct password to change firmwaresettings, such as the password 141. Accordingly, the management agent146 can execute the command to update the password 141 with the newlysupplied password in the password reset 151.

Upon updating the password 141, the management agent 146 can transmitthe reset confirmation 153 to the management service 111. The resetconfirmation 153 can provide an indication or confirmation that thepassword 141 has been updated in the firmware 139. Upon updating thepassword 141, the process can proceed to completion.

The client devices 106 or devices comprising the computing environment103 can include at least one processor circuit, for example, having aprocessor and at least one memory device, both of which are coupled to alocal interface, respectively. The device can include, for example, atleast one computer, a mobile device, smartphone, computing device, orlike device. The local interface can include, for example, a data buswith an accompanying address/control bus or other bus structure.

Stored in the memory device are both data and several components thatare executable by the processor. In particular, stored in the one ormore memory devices and executable by the device processor can be themanagement agent 146 and potentially other applications. Also stored inthe memory can be a data store 115 and other data.

A number of software components are stored in the memory and executableby a processor. In this respect, the term “executable” means a programfile that is in a form that can ultimately be run by the processor.Examples of executable programs can be, for example, a compiled programthat can be translated into machine code in a format that can be loadedinto a random access portion of one or more of the memory devices andrun by the processor, code that can be expressed in a format such asobject code that is capable of being loaded into a random access portionof the one or more memory devices and executed by the processor, or codethat can be interpreted by another executable program to generateinstructions in a random access portion of the memory devices to beexecuted by the processor. An executable program can be stored in anyportion or component of the memory devices including, for example,random access memory (RAM), read-only memory (ROM), hard drive,solid-state drive, USB flash drive, memory card, optical disc such ascompact disc (CD) or digital versatile disc (DVD), floppy disk, magnetictape, or other memory components.

Memory can include both volatile and nonvolatile memory and data storagecomponents. Also, a processor can represent multiple processors and/ormultiple processor cores, and the one or more memory devices canrepresent multiple memories that operate in parallel processingcircuits, respectively. Memory devices can also represent a combinationof various types of storage devices, such as RAM, mass storage devices,flash memory, or hard disk storage. In such a case, a local interfacecan be an appropriate network that facilitates communication between anytwo of the multiple processors or between any processor and any of thememory devices. The local interface can include additional systemsdesigned to coordinate this communication, including, for example,performing load balancing. The processor can be of electrical or of someother available construction.

The client devices 106 can include a display upon which a user interfacegenerated by the management console 113, the management agent 146, thefirmware 139, or another application can be rendered. In some examples,the user interface can be generated using user interface data providedby the computing environment 103. The client device 106 can also includeone or more input/output devices that can include, for example, acapacitive touchscreen or other type of touch input device, fingerprintreader, or keyboard.

Although the management service 111, management console 113, themanagement agent 146, and other various systems described herein can beembodied in software or code executed by general-purpose hardware asdiscussed above, as an alternative the same can also be embodied indedicated hardware or a combination of software/general purpose hardwareand dedicated hardware. If embodied in dedicated hardware, each can beimplemented as a circuit or state machine that employs any one of or acombination of a number of technologies. These technologies can includediscrete logic circuits having logic gates for implementing variouslogic functions upon an application of one or more data signals,application specific integrated circuits (ASICs) having appropriatelogic gates, field-programmable gate arrays (FPGAs), or othercomponents.

The flowcharts of FIG. 3-5 show an example of the functionality andoperation of an implementation of portions of components describedherein. If embodied in software, each block can represent a module,segment, or portion of code that can include program instructions toimplement the specified logical function(s). The program instructionscan be embodied in the form of source code that can includehuman-readable statements written in a programming language or machinecode that can include numerical instructions recognizable by a suitableexecution system such as a processor in a computer system or othersystem. The machine code can be converted from the source code. Ifembodied in hardware, each block can represent a circuit or a number ofinterconnected circuits to implement the specified logical function(s).

Although the flowchart shows a specific order of execution, it isunderstood that the order of execution can differ from that which isdepicted. For example, the order of execution of two or more blocks canbe scrambled relative to the order shown. Also, two or more blocks shownin succession can be executed concurrently or with partial concurrence.Further, in some examples, one or more of the blocks shown in thedrawings can be skipped or omitted.

Also, any logic or application described herein that includes softwareor code can be embodied in any non-transitory computer-readable mediumfor use by or in connection with an instruction execution system suchas, for example, a processor in a computer system or other system. Inthis sense, the logic can include, for example, statements includinginstructions and declarations that can be fetched from thecomputer-readable medium and executed by the instruction executionsystem. In the context of the present disclosure, a “computer-readablemedium” can be any medium that can contain, store, or maintain the logicor application described herein for use by or in connection with theinstruction execution system.

The computer-readable medium can include any one of many physical media,such as magnetic, optical, or semiconductor media. More specificexamples of a suitable computer-readable medium include solid-statedrives or flash memory. Further, any logic or application describedherein can be implemented and structured in a variety of ways. Forexample, one or more applications can be implemented as modules orcomponents of a single application. Further, one or more applicationsdescribed herein can be executed in shared or separate computing devicesor a combination thereof. For example, a plurality of the applicationsdescribed herein can execute in the same computing device, or inmultiple computing devices.

It is emphasized that the above-described examples of the presentdisclosure are merely possible examples of implementations set forth fora clear understanding of the principles of the disclosure. Manyvariations and modifications can be made to the above-describedembodiments without departing substantially from the spirit andprinciples of the disclosure. All such modifications and variations areintended to be included herein within the scope of this disclosure.

Therefore, the following is claimed:
 1. A client device, comprising: aprocessor and a memory; and machine-readable instructions stored in thememory which, when executed by the processor, cause the client device toat least: initiate enrollment of the client device as a managed deviceamong a plurality of managed devices that are managed by a managementservice; obtain a request to update a basic input output system (BIOS)password on the client device, wherein the request comprises a new BIOSpassword for the client device, wherein the request further comprises acommand to perform a password reset; and cause a management agent on theclient device to perform the password reset within the BIOS of theclient device, wherein the new BIOS password is stored in a devicerecord as a submitted password by a management service.
 2. The clientdevice of claim 1, wherein the machine-readable instructions, whenexecuted by the processor, further cause the client device to at least:transmit a password reset confirmation from the management agentexecuted by the client device to the management service.
 3. The clientdevice of claim 2, wherein the machine-readable instructions, whenexecuted by the processor, further cause the client device to at least:store the new BIOS password as a current BIOS password in the clientdevice.
 4. The client device of claim 1, wherein the request comprises arandomly generated new BIOS password generated from among a plurality ofrandomly generated new BIOS passwords for a plurality of managed devicesmanaged by the management service.
 5. The client device of claim 1,wherein the machine-readable instructions, when executed by theprocessor, further cause the client device to at least: generate anindication that at least one BIOS setting on the client device haschanged; and automatically cause the management service to generate therequest to update the BIOS password in response to obtaining theindication.
 6. The client device of claim 5, wherein the indication isobtained in response to a trusted platform module (TPM) chip on theclient device indicating that a value indicating a state of the BIOS haschanged.
 7. The client device of claim 1, wherein the command isgenerated in response to the BIOS being updated to a different version.8. A non-transitory computer-readable medium embodying executableinstructions which, when executed by a client device, cause the clientdevice to at least: initiate enrollment of the client device as amanaged device among a plurality of managed devices that are managed bya management service; obtain a request to update a basic input outputsystem (BIOS) password on the client device, wherein the requestcomprises a new BIOS password for the client device, wherein the requestfurther comprises a command to perform a password reset; and cause amanagement agent on the client device to perform the password resetwithin the BIOS of the client device, wherein the new BIOS password isstored in a device record as a submitted password by a managementservice.
 9. The non-transitory computer-readable medium of claim 8,further comprising executable instructions which, when executed by theclient device, further cause the client device to at least: transmit apassword reset confirmation from the management agent executed by theclient device to the management service.
 10. The non-transitorycomputer-readable medium of claim 9, further comprising executableinstructions which, when executed by the client device, further causethe client device to at least: store the new BIOS password as a currentBIOS password in the client device.
 11. The non-transitorycomputer-readable medium of claim 8, wherein the request comprises arandomly generated new BIOS password generated from among a plurality ofrandomly generated new BIOS passwords for a plurality of managed devicesmanaged by the management service.
 12. The non-transitorycomputer-readable medium of claim 8, further comprising executableinstructions which, when executed by the client device, further causethe client device to at least: generate an indication that at least oneBIOS setting on the client device has changed; and automatically causethe management service to generate the request to update the BIOSpassword in response to obtaining the indication.
 13. The non-transitorycomputer-readable medium of claim 12, wherein the indication is obtainedin response to a trusted platform module (TPM) chip on the client deviceindicating that a value indicating a state of the BIOS has changed. 14.The non-transitory computer-readable medium of claim 8, wherein thecommand is generated in response to the BIOS being updated to adifferent version.
 15. A method, comprising: initiating enrollment of aclient device as a managed device among a plurality of managed devicesthat are managed by a management service; obtaining a request to updatea basic input output system (BIOS) password on the client device,wherein the request comprises a new BIOS password for the client device,wherein the request further comprises a command to perform a passwordreset; and causing a management agent on the client device to performthe password reset within the BIOS of the client device, wherein the newBIOS password is stored in a device record as a submitted password by amanagement service.
 16. The method of claim 15, further comprisingtransmitting a password reset confirmation from the management agentexecuted by the client device to the management service.
 17. The methodof claim 16, further comprising storing the new BIOS password as acurrent BIOS password in the client device.
 18. The method of claim 15,wherein the request comprises a randomly generated new BIOS passwordgenerated from among a plurality of randomly generated new BIOSpasswords for a plurality of managed devices managed by the managementservice.
 19. The method of claim 15, further comprising: generating anindication that at least one BIOS setting on the client device haschanged; and automatically causing the management service to generatethe request to update the BIOS password in response to obtaining theindication.
 20. The method of claim 15, wherein the command is generatedin response to the BIOS being updated to a different version.